Non-contacting laser-ultrasonic fouling detection on steel pipes

Joonas Aleksi Mustonen; Denys Iablonskyi; Shayan Gharib; Joonas Fredrik Suorsa; Martin Weber; Arto Klami; Edward Haeggström; Ari Salmi

doi:10.1016/j.ultras.2025.107617

Non-contacting laser-ultrasonic fouling detection on steel pipes

Joonas Aleksi Mustonen, Denys Iablonskyi, Shayan Gharib, Joonas Fredrik Suorsa, Martin Weber, Arto Klami, Edward Haeggström, Ari Salmi

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

In many industrial processes, accumulation of fouling can lead to decreased production efficiency by weakening the flow in pipes or causing additional friction on the ships' hulls. To detect the fouled areas for descaling, ultrasonic guided waves (UGWs) can be utilized. Usually, this is carried out by coupling phased array collars of contact transducers onto the pipe. This can cause problems if the coupling changes over time, the temperature of the pipe is too high or the sensors need to be relocated. Here, we demonstrate how fouling can be detected without contact sensors, by using a pulse laser and a laser Doppler vibrometer. Furthermore, by employing broadband laser excitation, we are able to define the fouling attenuation coefficient and investigate the frequency dependencies of fouling-induced attenuation.

Original language	English
Article number	107617
Journal	Ultrasonics
Volume	151
Number of pages	7
ISSN	0041-624X
DOIs	https://doi.org/10.1016/j.ultras.2025.107617
Publication status	Published - Jul 2025
MoE publication type	A1 Journal article-refereed

Fields of Science

114 Physical sciences

Access to Document

10.1016/j.ultras.2025.107617Licence: CC BY

pipesFinal published version, 1.79 MBLicence: CC BY

Cite this

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title = "Non-contacting laser-ultrasonic fouling detection on steel pipes",

abstract = "In many industrial processes, accumulation of fouling can lead to decreased production efficiency by weakening the flow in pipes or causing additional friction on the ships' hulls. To detect the fouled areas for descaling, ultrasonic guided waves (UGWs) can be utilized. Usually, this is carried out by coupling phased array collars of contact transducers onto the pipe. This can cause problems if the coupling changes over time, the temperature of the pipe is too high or the sensors need to be relocated. Here, we demonstrate how fouling can be detected without contact sensors, by using a pulse laser and a laser Doppler vibrometer. Furthermore, by employing broadband laser excitation, we are able to define the fouling attenuation coefficient and investigate the frequency dependencies of fouling-induced attenuation.",

keywords = "114 Physical sciences",

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doi = "10.1016/j.ultras.2025.107617",

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T1 - Non-contacting laser-ultrasonic fouling detection on steel pipes

AU - Mustonen, Joonas Aleksi

AU - Iablonskyi, Denys

AU - Gharib, Shayan

AU - Suorsa, Joonas Fredrik

AU - Weber, Martin

AU - Klami, Arto

AU - Haeggström, Edward

AU - Salmi, Ari

PY - 2025/7

Y1 - 2025/7

N2 - In many industrial processes, accumulation of fouling can lead to decreased production efficiency by weakening the flow in pipes or causing additional friction on the ships' hulls. To detect the fouled areas for descaling, ultrasonic guided waves (UGWs) can be utilized. Usually, this is carried out by coupling phased array collars of contact transducers onto the pipe. This can cause problems if the coupling changes over time, the temperature of the pipe is too high or the sensors need to be relocated. Here, we demonstrate how fouling can be detected without contact sensors, by using a pulse laser and a laser Doppler vibrometer. Furthermore, by employing broadband laser excitation, we are able to define the fouling attenuation coefficient and investigate the frequency dependencies of fouling-induced attenuation.

AB - In many industrial processes, accumulation of fouling can lead to decreased production efficiency by weakening the flow in pipes or causing additional friction on the ships' hulls. To detect the fouled areas for descaling, ultrasonic guided waves (UGWs) can be utilized. Usually, this is carried out by coupling phased array collars of contact transducers onto the pipe. This can cause problems if the coupling changes over time, the temperature of the pipe is too high or the sensors need to be relocated. Here, we demonstrate how fouling can be detected without contact sensors, by using a pulse laser and a laser Doppler vibrometer. Furthermore, by employing broadband laser excitation, we are able to define the fouling attenuation coefficient and investigate the frequency dependencies of fouling-induced attenuation.

KW - 114 Physical sciences

U2 - 10.1016/j.ultras.2025.107617

DO - 10.1016/j.ultras.2025.107617

M3 - Article

SN - 0041-624X

VL - 151

JO - Ultrasonics

JF - Ultrasonics

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